Window shade

ABSTRACT

The window shade includes a header defined by a substantially elongated U-shaped channel. The top of the header includes attachment areas for attaching the header to a window frame. A folded blind has one end attached to the web of the header channel, and when folded, the blind is housed inside the channel. The other end of the pleated blind is attached to a footer. A magnetic latching assembly is disposed between the header and the footer to keep the blind in a folded condition. Alternatively, a retaining mechanism holds the footer when the blind is folded. Pulling a pull cord disposed on the footer releases the magnetic latching mechanism or the retaining mechanism to thereby rapidly unfold the blind.

CROSS REFERENCE TO RELATED APPLICATIONS

This is a continuation-in-part of my prior application Ser. No. 12/457,294, filed on Jun. 5, 2009.

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention relates to window shades, and more specifically to an economical magnetic cordless shade for fast deployment whenever shade or cover is desired.

2. Description of the Related Art

In most situations where danger is from outside, the windows of a building pose the biggest threat to the occupants. Unless reinforced, the windows can easily be breached, and they provide a view of the occupants therein for potential enemies outside. Since most windows include a blind for shade or privacy purposes, it is common practice to cover the windows in emergency or dangerous situations. The blind, typically Venetian or roll-up blinds, provides a barrier from potentially harmful debris should the window break or shatter as well as obscure the view. Rapid deployment of the blind is advantageous in these situations, but due to the construction of a Venetian blind, the catch mechanism often hinders fast release of the slats. With respect to a roll-up blind, the reeling mechanism is prone to wear so that reeling and un-reeling becomes unreliable. In many facilities, such as schools, office buildings, and the like, lock down procedures typically call for windows, and particularly windows disposed in classroom or office doors, to be covered as quickly as possible. Thus, it would be a benefit in the art to provide a window shade that can easily and reliably deploy in a rapid manner while minimizing costs for the same.

Thus, a magnetic cordless shade solving the aforementioned problems is desired.

SUMMARY OF THE INVENTION

The window shade includes a header defined by a substantially elongated U-shaped channel. The top of the header includes attachment areas for attaching the header to a window frame. A folded blind has one end attached to the web of the header channel, and when folded, the blind is housed inside the channel. The other end of the pleated blind is attached to a footer. A magnetic latching assembly is disposed between the header and the footer to keep the blind in a folded condition. Alternatively, a retaining mechanism holds the footer when the blind is folded. Pulling a pull cord or handle disposed on the footer releases the magnetic latching mechanism or the retaining mechanism to thereby rapidly unfold the blind.

These and other features of the present invention will become readily apparent upon further review of the following specification and drawings.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is an environmental, perspective view of a magnetic cordless shade according to the present invention.

FIG. 2 is a partial front view of the magnetic cordless shade according to the present invention.

FIG. 3 is a partial rear view of the magnetic cordless shade according to the present invention.

FIG. 4 is a side view in section of the magnetic cordless shade according to the present invention, the shade being retracted into the header channel.

FIG. 5A is a rear view of an alternative embodiment of a magnetic cordless shade according to the present invention.

FIG. 5B is a perspective view of a metal latch locking bracket of the alternative embodiment of the magnetic cordless shade shown in FIG. 5A.

FIG. 6A is a front view of an alternative embodiment of a magnetic latch for a magnetic cordless shade according to the present invention.

FIG. 6B is a side view in section of the alternative magnetic latch of FIG. 6A.

FIG. 7 is an environmental perspective view of another alternative embodiment of a window shade according to the present invention.

FIG. 8 is a side view in section of the window shade of FIG. 7, the shade being retracted into the header channel.

FIG. 9 is a side view in section of another alternative embodiment of a window shade according to the present invention, the shade being retracted into the header channel and having a different latching mechanism than the embodiment of FIG. 8.

Similar reference characters denote corresponding features consistently throughout the attached drawings.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

The present invention relates to a rapidly deployable magnetic cordless shade, generally referred to by reference number 10, which is simple in construction and cost effective. As shown in FIGS. 1-4, the magnetic cordless shade 10 includes a header or head rail 11, a footer or foot rail 40 and a blind 20 disposed between the head and foot rails 11, 40. The head rail 11 is an elongate, U-shaped channel formed from a web and two substantially parallel flanges extending from opposite edges of the web, the channel having an interior defining a housing space for the blind 20. The head rail 11 is adapted to be mounted to the top of a window frame. To facilitate the mounting, the head rail 11 includes attachment areas 13 where fasteners or adhesives may be used to attach the head rail 11 to the window frame. Alternatively, one of the sides of the head rail 11 may include attachment areas to facilitate mounting the head rail 11 above a window niche. Another alternative may employ hanging brackets for the head rail 11. The distal ends of the head rail 11 may be covered by end caps 12.

The blind 20 is preferably a folded stack of fabric, or pleated fabric, that will stow inside the housing area of the head rail 11 when in a folded condition. The fabric may be made from paper, textile, vinyl or composites so long as it is durable and provides shade. An anchoring upper vane or slat 21 is attached to the upper end of the blind 20. The upper anchoring slat 21, in turn, is fixed to the web 17 of the header rail 11 by fasteners or adhesives. The lower end of the blind 20 is attached to another anchoring vane or slat 22

The footer or foot rail 40 is an elongate channel dimensioned to slidably fit over the lower anchoring slat 22. The two anchoring slats 21, 22 on the respective rails provide a stable connection so that the blind 20 may easily unfold or fold. A pull cord 15 is operatively disposed on the foot rail 40. The foot rail 40 may also include end caps 41 to cover the distal ends.

To keep the blind 20 in a stowed or folded condition, the magnetic cordless shade 10 includes a magnetic latching assembly disposed between, or having mating components attached to or formed by, the header and the footer 11, 40. The magnetic latching assembly includes a magnetic latch 30 disposed on the foot rail 40. The magnetic latch 30 may be a folded bracket with a magnet 31 mounted or bonded thereon. The magnet 31 is preferably a neodymium magnet. If the head rail 11 is made from a ferromagnetic material, such as steel, then the magnetic latch 30 may simply latch to the interior of head rail 11, as shown in FIG. 4. For other instances, such as a head rail 11 made from aluminum or plastic, the head rail 11 may include a magnetic locking latch 32, keeper, or catch mounted inside the head rail 11. The magnetic locking latch 32 is preferably a strip of ferromagnetic material or an oppositely polarized magnet. To ensure unobtrusive latching between the rails 11 and 40, the head rail 11 may include a slot through which the magnetic latch 30 may pass.

The following describes operation of the magnetic cordless shade 10. As shown in FIG. 4, the magnetic cordless shade 10 is assumed to be in a folded condition with the magnetic latch 30 locked onto the head rail 11. When it is desired to rapidly cover the window W, e.g., a window on a door D (shown in FIG. 1), the user pulls a handling means such as a handle or the pull cord 15 with enough force to release the magnetic latch 30 to allow the weight of the foot rail 40 and gravity assist with unfolding and extending or lowering the blind 20. Thus, the blind 20 is rapidly deployed with minimal or any hindrance. When shade or cover is no longer needed, the user lifts the foot rail 40 and folds the blind 20 back into the channel and secures the magnetic latch 30.

Referring to FIGS. 5A-6B, alternative magnetic latching assemblies for the magnetic cordless shade 10 are shown. For example, in FIGS. 5A and 5B, the magnetic cordless shade 100 includes a magnetic locking latch 110. The magnetic locking latch 110 may be a L-shaped bracket mounted to the exterior of the head rail 11 by a fastener inserted through fastener hole 111, the bracket being made from ferromagnetic material. In operation, the magnetic latch 30 latches onto the depending portion or downwardly extending leg of the bracket. Also, as shown in FIGS. 6A and 6B, the magnetic latch 130 may be a strip of material of any desired shape that is attached to the foot rail 40. A magnet 131 is embedded in the strip and functions similar to the above magnetic latch 30.

Similar quick-release deployment of the blind can also be provided with non-magnetic means. In the embodiment shown in FIGS. 7 and 8, the alternative window shade, generally designated by the reference number 200, includes a mechanical retaining mechanism that retains the blind in a stowed position, yet allows for rapid deployment of the blind by a gentle tug on the footer.

As shown in FIGS. 7 and 8, the window shade 200 includes a header or head rail 211, a footer or foot rail 240 and a blind or shade 220 disposed between the head and foot rails 211, 240. The head rail 211 is substantially similar to the previously described head rail 11 in that the head rail 211 includes an elongate, U-shaped channel formed from a web and two substantially parallel flanges extending from opposite edges of the web, the channel having an interior defining a housing space 214 for the blind 220. The head rail 211 is configured to be mounted to the top sill of a window frame in the same manner described above with respect to the head rail 11.

The blind 220 is preferably similar in construction to the blind 20. The blind 220 is a folded stack of fabric or material that will stow inside the housing area 214 when in a folded condition. The blind 220 can be attached to the head rail 211 by respective anchoring vanes or slats, such as the slat 221 for the upper end of the blind 220.

As noted above, the folded blind 220 is retained in the housing area 214 by a retaining mechanism 230. In this embodiment, the retaining mechanism 230 includes at least one elongate spring clip 232 extending downward from select locations along the length of the head rail 211. As shown, the spring clip 232 is integrally formed with the head rail 211 and includes an upper curved portion 236 and a lower curved lip 234 extending outward at an angle. The upper curved portion 236 provides the resilient biasing force required to facilitate holding or retention of the foot rail 240. Although the drawings show the spring clip 232 being substantially vertical, the spring clip 232 can also be angled inward towards the vertical center of the head rail 211 for additional bias. The lower lip 234 is preferably curved to provide a ledge for the foot rail 240 when placed in the stowed position and to allow for relatively easy insertion or release of the foot rail 240 towards or away from the housing area 214. The spring clips 232 can be constructed from the same material as the head rail 211, or from plastic, wood, steel, composites and combinations thereof.

In operation, the user simply tugs or pulls on a handling means such as a handle or a pull cord 215 operatively attached to the foot rail 240 with enough force to overcome the bias of the spring clips 232, which causes the blind 220 to rapidly unfold and cover the window W due to the falling weight of the foot rail 240. Optionally, the foot rail 240 can include a magnet 242 imbedded therein or otherwise attached to the foot rail 240 in order to secure the foot rail 240 onto the bottom sill of the window W, if the bottom sill is ferromagnetic. When it is desired to open the shade, the user pushes the foot rail 240 up towards the head rail 211 causing the blind 220 to fold along the way. The user then pushes the foot rail 240 against the lips 234 of the spring clips 232 past the curved portion thereof until secured by the spring clips 232.

Although an integral spring clip 232 has been described, the retaining mechanism 230 includes a variety of alternatives. For example, the spring clips 232 can be a separate element that can be attached to the head rail 211 by coil springs, which bias the elongate clip 232 against the sides of the blind 220 and the foot rail 240. In addition, any number and widths of the spring clips 232 can be disposed along the length of the head rail 211.

A still further example of a quick-release retaining mechanism is shown in FIG. 9. In this embodiment, the window shade 300 includes a header or head rail 311, a footer or foot rail 340, and a foldable blind 320 attached therebetween. At least one retaining mechanism 330 is pivotally attached to one side of the head rail 311 by a pivot 333. The pivot 333 can be a hinge-type of connection having a hinge pin, or a living hinge. The retaining mechanism 330 includes an elongate retaining strip 332 pivotally attached to the pivot 333 at one end. The retaining strip 332 holds or retains the foot rail 340 when the blind 320 is folded into the stowed position. The other end of the retaining strip 332 includes a magnet 334 for securing that end of the retaining strip 332 against the head rail 311 by mutual attraction with a second magnet 335 of opposite polarity attached to the head rail 311. The magnets 334, 335 are preferably mild in strength so as to minimize the tugging or pulling force required to deploy the blind 320. Alternatively, the second magnet 335 can be replaced by a strip of ferromagnetic material. As a further alternative, the arrangement of the magnet and ferromagnetic material can be reversed between the retaining strip 332 and the head rail 311.

In most respects, the window shade 300 operates in the same manner as the window shade 200. An additional step is in securing the folded blind 320 and the foot rail 340 against the head rail 311 by manually strapping the retaining strips 332 with the magnets 334, 335. Moreover, the foot rail 340 can also include a magnet 342 for securing the foot rail 340 against a ferromagnetic, bottom window sill when fully deployed.

Although the above has been described using magnets for securing the retaining strip 332, other types of quick release connectors can be used. For example, the retaining strip 332 can be secured by snaps, quick-release buckles, or mild hook and loop fasteners. The retaining strip 332 can be constructed from similar material as the header rail 311, such as plastic, wood, steel, composites or combinations thereof. Moreover, the retaining strip 332 can be flexible or stiff, and be provided in a variety of sizes and widths.

Thus, it can be seen that the magnetic cordless blind 10 and the window shades 200, 300 are relatively simple in construction. In terms of costs, the magnetic cordless blind 10 and the window shades 200, 300 are very cost effective compared to Venetian blinds due to the customization options offered thereby. The costs of a custom Venetian blind increase when the width is narrower than standard, due in part to the hardware associated therewith, i.e., the cords that pull or lower the slats and custom slats to accommodate the cords. In contrast, the magnetic cordless blind 10 and the window shades 200, 300 do not include such hardware considerations for the custom dimensions.

It is to be understood that magnetic cordless blind 10 and the window shades 200, 300 encompass a variety of other alternatives. For example, the head rail 11 may include a similar strip as that of the magnetic latch 130 so long as the magnet is of opposite polarity. Moreover, the blinds 20, 220, 320 may include a variety of colors and patterns. Furthermore, the magnetic cordless blind 10 and the window shades 200, 300 may come in a variety colors, including indicia for advertising or personalization.

It is to be understood that the present invention is not limited to the embodiments described above, but encompasses any and all embodiments within the scope of the following claims. 

I claim:
 1. A window shade, consisting of a header adapted to be mounted to a window frame or niche, the header including an elongated U-shaped channel formed by a web and two substantially parallel opposing flanges extending from opposite sides of the web, the channel defining a housing area for stowing the shade when retracted; a footer disposed below the header, the footer having a handling means for pulling the footer; a window shade, the shade defining a foldable blind attached at its upper end to the header and at its lower end to the footer, thereby extending between the header and the footer, the blind having a retracted position when the blind is folded within the channel and an extended position substantially covering the window frame; and a retaining mechanism selectively holding the blind and the footer when the blind is in the retracted position, the retaining mechanism being disposed on the header; wherein pulling the handling means releases the retaining mechanism to rapidly extend the blind.
 2. The window shade according to claim 1, wherein said retaining mechanism comprises at least one retaining clip disposed at select locations along said header, the retaining clip being an elongate strip having a resiliently biased end for holding said footer and a lower curved lip defining a ledge, said footer resting on the ledge when the blind is in the retracted position, the lower lip easing insertion of said footer into the channel.
 3. The window shade according to claim 1, wherein said retaining mechanism comprises at least one retaining strip disposed at select locations along said header, the retaining strip having a first end pivotally attached to said header and an opposite second end having a fastener, the fastener selectively attaching the retaining strip to said header, thereby holding said blind and said footer in the retracted position.
 4. The window shade according to claim 3, wherein said fastener comprises a mating pair of magnets.
 5. The window shade according to claim 1, wherein said handling means comprises a pull cord. 